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Design of a reduced-rule self-organizing fuzzy logic controller for water hydraulic applications

Estelle Jones, Andrew Dobson, Anthony Paul Roskilly

发表年份
2000
引用次数
11

摘要

Abstract The use of self-organizing fuzzy logic controllers (SOFLCs) in high-speed multi-variable systems has been largely limited by the high number of rules generated, and by the application specific nature of the learning process. This paper concerns the development of a more generically applicable form of an SOFLC that uses a limited rule base of predetermined size, resulting in improved generalization properties and a reduction in the processing time. A simulation study on a four-valve water hydraulic actuator for a subsea robotic arm shows how this method can be applied to system modelling, the resulting 48-rule fuzzy model then providing the necessary process model for training the SOFLC. Using this fuzzy model the SOFLC was able to tune a set of 12 rules to control the actuator and then to adapt these rules to compensate for a simulated leak of hydraulic fluid.

关键词

Control engineeringActuatorFuzzy logicComputer scienceFuzzy control systemProcess (computing)GeneralizationControl theory (sociology)Controller (irrigation)Hydraulic machinery

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